MEANS
effects </ options> ;
Within each group corresponding to each effect specified in the MEANS statement, PROC GLM computes the arithmetic means and standard deviations of all continuous variables in the model (both dependent and independent). You can specify only classification effects in the MEANS statement—that is, effects that contain only classification variables.
Note that the arithmetic means are not adjusted for other effects in the model; for adjusted means, see the section LSMEANS Statement.
If you use a WEIGHT statement, PROC GLM computes weighted means; see the section Weighted Means.
You can also specify options to perform multiple comparisons. However, the MEANS statement performs multiple comparisons only for main-effect means; for multiple comparisons of interaction means, see the section LSMEANS Statement.
You can use any number of MEANS statements, provided that they appear after the MODEL statement. For example, suppose A
and B
each have two levels. Then, if you use the statements
proc glm; class A B; model Y=A B A*B; means A B / tukey; means A*B; run;
the means, standard deviations, and Tukey’s multiple comparisons tests are displayed for each level of the main effects A
and B
, and just the means and standard deviations are displayed for each of the four combinations of levels for A
*B
. Since multiple comparisons tests apply only to main effects, the single MEANS statement
means A B A*B / tukey;
produces the same results.
PROC GLM does not compute means for interaction effects containing continuous variables. Thus, if you have the model
class A; model Y=A X A*X;
then the effects X
and A
*X
cannot be used in the MEANS statement. However, if you specify the effect A
in the means statement
means A;
then PROC GLM, by default, displays within-A
arithmetic means of both Y
and X
. You can use the DEPONLY option to display means of only the dependent variables.
means A / deponly;
If you use a WEIGHT statement, PROC GLM computes weighted means and estimates their variance as inversely proportional to the corresponding sum of weights (see the section Weighted Means). However, note that the statistical interpretation of multiple comparison tests for weighted means is not well understood. See the section Multiple Comparisons for formulas. Table 42.8 summarizes the options available in the MEANS statement.
Table 42.8: MEANS Statement Options
Option |
Description |
---|---|
Modify output |
|
Displays only means for the dependent variables |
|
Perform multiple comparison tests |
|
Performs Bonferroni t tests |
|
Performs Duncan’s multiple range test |
|
Performs Dunnett’s two-tailed t test |
|
Performs Dunnett’s lower one-tailed t test |
|
Performs Dunnett’s upper one-tailed t test |
|
Performs Gabriel’s multiple-comparison procedure |
|
Performs the Ryan-Einot-Gabriel-Welsch multiple range test |
|
Performs Scheffé’s multiple-comparison procedure |
|
Performs pairwise t tests on differences between means |
|
Performs pairwise comparisons based on the studentized maximum modulus and Sidak’s uncorrelated-t inequality |
|
Performs the Student-Newman-Keuls multiple range test |
|
Performs pairwise t tests |
|
Performs Tukey’s studentized range test (HSD) |
|
Performs the Waller-Duncan k-ratio t test |
|
Specify additional details for multiple comparison tests |
|
Specifies the level of significance |
|
Presents confidence intervals for all pairwise differences between means |
|
Presents results as intervals for the mean of each level of the variables |
|
Specifies the error mean square used in the multiple comparisons |
|
Specifies the type of mean square for the error effect |
|
Specifies the MS type for the hypothesis MS |
|
Specifies the Type 1/Type 2 error seriousness ratio |
|
Lists the means in descending order and indicating nonsignificant subsets by line segments |
|
Prevents the means from being sorted into descending order |
|
Test for homogeneity of variances |
|
Requests a homogeneity of variance test |
|
Compensate for heterogeneous variances |
|
Requests the variance-weighted one-way ANOVA of Welch (1951) |
The options available in the MEANS statement are described in the following list.